By comparing the form of the chlorophyll fluorescence decays in wild-type

By comparing the form of the chlorophyll fluorescence decays in wild-type plants we show that the presence of violaxanthin deepoxidase (VDE) but not the protein PsbS changes the excited-state relaxation dynamics of chlorophyll. to bind pigments and thus is likely not the site of quenching (10). It has therefore been hypothesized that PsbS plays an indirect role in quenching perhaps facilitating a rearrangement of proteins within the grana (11-13). In this paper we examine the fluorescence lifetime of chlorophyll throughout Vargatef the induction and relaxation of quenching in intact leaves with and without PsbS and zeaxanthin to examine whether PsbS and zeaxanthin change the type of quenching that occurs in plants. The amount and dynamics of qE are generally measured by changes in the chlorophyll fluorescence yield. One limitation of the chlorophyll fluorescence yield is that it can only inform on the amount of quenching not on excited-state chlorophyll relaxation dynamics which reflect how chlorophyll is quenched. Despite this issue the amount of Rabbit Polyclonal to Cytochrome P450 26C1. quenching is commonly used as a proxy for the type of quenching by separating components of quenching based on kinetics mutants and the effects of chemical inhibitors. By artificially increasing ΔpH in isolated chloroplasts from plants to levels observed in wild type plants suggesting that PsbS may catalyze qE. One potential complication with these studies is that the use of the chemical mediators of cyclic electron transport often necessitates studying isolated chloroplasts rather than intact leaves. In addition the observation of equivalent amounts of quenching still does not prove that the type of quenching in is the same as in wild type. In contrast with fluorescence yield measurements fluorescence lifetime measurements can be used to determine whether the relaxation dynamics of excited chlorophyll are modified by different mutations informing on the role of a protein or molecule during quenching. The relaxation dynamics of Vargatef excited chlorophyll during NPQ depends on many variables including the Vargatef distance to a quencher the interactions between the orbitals of chlorophyll and the quencher and the number of quenchers (16). The shape of the fluorescence lifetime decay curve can be used to determine whether two samples have similar excited chlorophyll relaxation dynamics. Our results show that although the presence of PsbS does not alter excited chlorophyll relaxation dynamics the absence of VDE does. These measurements are performed in intact leaves without any chemical treatments and the data strongly suggest that PsbS plays a catalytic role in vivo. Results To examine the dynamics of quenching fluorescence lifetimes were measured for wild-type leaves during a 45-min illumination period with 500 μmol photons?m?2?s?1 light. To deconvolute the dynamics of qE from NPQ mechanisms that relax on a longer timescale the actinic light was subsequently turned off for 3 min. This amount of time is long enough to dissipate the ΔpH that triggers qE (17) but not long enough for significant conversion of zeaxanthin back to violaxanthin which is necessary to turn off a zeaxanthin-dependent but ΔpH-independent component of NPQ called qZ (18). The actinic light was then turned on for a 10-min period to turn qE back on. Amplitude-Weighted Average Fluorescence Lifetimes. The amplitude-weighted average fluorescence lifetimes for wild type over the duration of the experiments are shown in Fig. 1. The light sequence of the actinic light is shown by the white and black bars at the of Fig. 1. Both wild-type and leaves had nearly equal average fluorescence lifetimes in the dark. Both zeaxanthin-free mutants (and and all reached approximately the same average fluorescence lifetime of 0.75 ns whereas wild type had an average lifetime of 0.47 ns. Fig. 1. Average fluorescence lifetimes of wild type (black) (blue) (red) and (purple) are shown as closed circles. The gray open circles indicate the two similar average fluorescence lifetimes that are used to compare the shapes of the … One minute after the actinic light was turned off the leaves that contain PsbS (wild type and and showed a transient decrease in the average fluorescence lifetime dropping by ～30 ps (of Fig. 1). After this drop the average fluorescence lifetime increased over the next 2 min of darkness. When the actinic light was turned on for the second time the average fluorescence lifetime of wild type decreased by 40 ps within 3 s of illumination whereas the fluorescence.

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